NAME
SOAP::Lite - Perl's Web Services Toolkit
DESCRIPTION
SOAP::Lite is a collection of Perl modules which provides a simple and
lightweight interface to the Simple Object Access Protocol (SOAP) both
on client and server side.
PERL VERSION WARNING
As of version SOAP::Lite version 1.0, no perl versions before 5.8 will
be supported.
SOAP::Lite 0.71 will be the last version of SOAP::Lite running on perl
5.005
Future versions of SOAP::Lite will require at least perl 5.6.0
If you have not had the time to upgrade your perl, you should consider
this now.
OVERVIEW OF CLASSES AND PACKAGES
lib/SOAP/Lite.pm
SOAP::Lite - Main class provides all logic
SOAP::Transport - Transport backend
SOAP::Data - Data objects
SOAP::Header - Header Data Objects
SOAP::Serializer - Serializes data structures to SOAP messages
SOAP::Deserializer - Deserializes SOAP messages into SOAP::SOM
objects
SOAP::SOM - SOAP Message objects
SOAP::Constants - Provides access to common constants and defaults
SOAP::Trace - Tracing facilities
SOAP::Schema - Provides access and stub(s) for schema(s)
SOAP::Schema::WSDL - WSDL implementation for SOAP::Schema
SOAP::Server - Handles requests on server side
SOAP::Server::Object - Handles objects-by-reference
SOAP::Fault - Provides support for Faults on server side
SOAP::Utils - A set of private and public utility subroutines
lib/SOAP/Packager.pm
SOAP::Packager - Provides an abstract class for implementing custom
packagers.
SOAP::Packager::MIME - Provides MIME support to SOAP::Lite
SOAP::Packager::DIME - Provides DIME support to SOAP::Lite
lib/SOAP/Transport/HTTP.pm
SOAP::Transport::HTTP::Client - Client interface to HTTP transport
SOAP::Transport::HTTP::Server - Server interface to HTTP transport
SOAP::Transport::HTTP::CGI - CGI implementation of server interface
SOAP::Transport::HTTP::Daemon - Daemon implementation of server
interface
SOAP::Transport::HTTP::Apache - mod_perl implementation of server
interface
lib/SOAP/Transport/POP3.pm
SOAP::Transport::POP3::Server - Server interface to POP3 protocol
lib/SOAP/Transport/MAILTO.pm
SOAP::Transport::MAILTO::Client - Client interface to SMTP/sendmail
lib/SOAP/Transport/LOCAL.pm
SOAP::Transport::LOCAL::Client - Client interface to local transport
lib/SOAP/Transport/TCP.pm
SOAP::Transport::TCP::Server - Server interface to TCP protocol
SOAP::Transport::TCP::Client - Client interface to TCP protocol
lib/SOAP/Transport/IO.pm
SOAP::Transport::IO::Server - Server interface to IO transport
METHODS
All accessor methods return the current value when called with no
arguments, while returning the object reference itself when called with
a new value. This allows the set-attribute calls to be chained together.
new(optional key/value pairs)
$client = SOAP::Lite->new(proxy => $endpoint)
Constructor. Many of the accessor methods defined here may be
initialized at creation by providing their name as a key, followed
by the desired value. The example provides the value for the proxy
element of the client.
transport(optional transport object)
$transp = $client->transport( );
Gets or sets the transport object used for sending/receiving SOAP
messages.
See SOAP::Transport for details.
serializer(optional serializer object)
$serial = $client->serializer( )
Gets or sets the serializer object used for creating XML messages.
See SOAP::Serializer for details.
packager(optional packager object)
$packager = $client->packager( )
Provides access to the "SOAP::Packager" object that the client uses
to manage the use of attachments. The default packager is a MIME
packager, but unless you specify parts to send, no MIME formatting
will be done.
See also: SOAP::Packager.
proxy(endpoint, optional extra arguments)
$client->proxy('http://soap.xml.info/ endPoint');
The proxy is the server or endpoint to which the client is going to
connect. This method allows the setting of the endpoint, along with
any extra information that the transport object may need when
communicating the request.
This method is actually an alias to the proxy method of
SOAP::Transport. It is the same as typing:
$client->transport( )->proxy(...arguments);
Extra parameters can be passed to proxy() - see below.
compress_threshold
See COMPRESSION in HTTP::Transport.
All initialization options from the underlying transport layer
The options for HTTP(S) are the same as for LWP::UserAgent's
new() method.
A common option is to create a instance of HTTP::Cookies and
pass it as cookie_jar option:
my $cookie_jar = HTTP::Cookies->new()
$client->proxy('http://www.example.org/webservice',
cookie_jar => $cookie_jar,
);
For example, if you wish to set the HTTP timeout for a SOAP::Lite
client to 5 seconds, use the following code:
my $soap = SOAP::Lite
->uri($uri)
->proxy($proxyUrl, timeout => 5 );
See LWP::UserAgent.
endpoint(optional new endpoint address)
$client->endpoint('http://soap.xml.info/ newPoint')
It may be preferable to set a new endpoint without the additional
work of examining the new address for protocol information and
checking to ensure the support code is loaded and available. This
method allows the caller to change the endpoint that the client is
currently set to connect to, without reloading the relevant
transport code. Note that the proxy method must have been called
before this method is used.
service(service URL)
$client->service('http://svc.perl.org/Svc.wsdl');
"SOAP::Lite" offers some support for creating method stubs from
service descriptions. At present, only WSDL support is in place.
This method loads the specified WSDL schema and uses it as the basis
for generating stubs.
outputxml(boolean)
$client->outputxml('true');
When set to a true value, the raw XML is returned by the call to a
remote method.
The default is to return the a SOAP::SOM object (false).
autotype(boolean)
$client->autotype(0);
This method is a shortcut for:
$client->serializer->autotype(boolean);
By default, the serializer tries to automatically deduce types for
the data being sent in a message. Setting a false value with this
method disables the behavior.
readable(boolean)
$client->readable(1);
This method is a shortcut for:
$client->serializer->readable(boolean);
When this is used to set a true value for this property, the
generated XML sent to the endpoint has extra characters (spaces and
new lines) added in to make the XML itself more readable to human
eyes (presumably for debugging). The default is to not send any
additional characters.
default_ns($uri)
Sets the default namespace for the request to the specified uri.
This overrides any previous namespace declaration that may have been
set using a previous call to "ns()" or "default_ns()". Setting the
default namespace causes elements to be serialized without a
namespace prefix, like this:

Some .NET web services have been reported to require this XML
namespace idiom.
ns($uri,$prefix=undef)
Sets the namespace uri and optionally the namespace prefix for the
request to the specified values. This overrides any previous
namespace declaration that may have been set using a previous call
to "ns()" or "default_ns()".
If a prefix is not specified, one will be generated for you
automatically. Setting the namespace causes elements to be
serialized with a declared namespace prefix, like this:

use_prefix(boolean)
Deprecated. Use the "ns()" and "default_ns" methods described above.
Shortcut for "serializer->use_prefix()". This lets you turn on/off
the use of a namespace prefix for the children of the /Envelope/Body
element. Default is 'true'.
When use_prefix is set to 'true', serialized XML will look like
this:

When use_prefix is set to 'false', serialized XML will look like
this:

Some .NET web services have been reported to require this XML
namespace idiom.
soapversion(optional value)
$client->soapversion('1.2');
If no parameter is given, returns the current version of SOAP that
is being used by the client object to encode requests. If a
parameter is given, the method attempts to set that as the version
of SOAP being used.
The value should be either 1.1 or 1.2.
envprefix(QName)
$client->envprefix('env');
This method is a shortcut for:
$client->serializer->envprefix(QName);
Gets or sets the namespace prefix for the SOAP namespace. The
default is SOAP.
The prefix itself has no meaning, but applications may wish to chose
one explicitly to denote different versions of SOAP or the like.
encprefix(QName)
$client->encprefix('enc');
This method is a shortcut for:
$client->serializer->encprefix(QName);
Gets or sets the namespace prefix for the encoding rules namespace.
The default value is SOAP-ENC.
While it may seem to be an unnecessary operation to set a value that
isn't relevant to the message, such as the namespace labels for the
envelope and encoding URNs, the ability to set these labels explicitly
can prove to be a great aid in distinguishing and debugging messages on
the server side of operations.
encoding(encoding URN)
$client->encoding($soap_12_encoding_URN);
This method is a shortcut for:
$client->serializer->encoding(args);
Where the earlier method dealt with the label used for the
attributes related to the SOAP encoding scheme, this method actually
sets the URN to be specified as the encoding scheme for the message.
The default is to specify the encoding for SOAP 1.1, so this is
handy for applications that need to encode according to SOAP 1.2
rules.
typelookup
$client->typelookup;
This method is a shortcut for:
$client->serializer->typelookup;
Gives the application access to the type-lookup table from the
serializer object. See the section on SOAP::Serializer.
uri(service specifier)
Deprecated - the "uri" subroutine is deprecated in order to provide
a more intuitive naming scheme for subroutines that set namespaces.
In the future, you will be required to use either the "ns()" or
"default_ns()" subroutines instead of "uri()".
$client->uri($service_uri);
This method is a shortcut for:
$client->serializer->uri(service);
The URI associated with this accessor on a client object is the
service-specifier for the request, often encoded for HTTP-based
requests as the SOAPAction header. While the names may seem
confusing, this method doesn't specify the endpoint itself. In most
circumstances, the "uri" refers to the namespace used for the
request.
Often times, the value may look like a valid URL. Despite this, it
doesn't have to point to an existing resource (and often doesn't).
This method sets and retrieves this value from the object. Note that
no transport code is triggered by this because it has no direct
effect on the transport of the object.
multirefinplace(boolean)
$client->multirefinplace(1);
This method is a shortcut for:
$client->serializer->multirefinplace(boolean);
Controls how the serializer handles values that have multiple
references to them. Recall from previous SOAP chapters that a value
may be tagged with an identifier, then referred to in several
places. When this is the case for a value, the serializer defaults
to putting the data element towards the top of the message, right
after the opening tag of the method-specification. It is serialized
as a standalone entity with an ID that is then referenced at the
relevant places later on. If this method is used to set a true
value, the behavior is different. When the multirefinplace attribute
is true, the data is serialized at the first place that references
it, rather than as a separate element higher up in the body. This is
more compact but may be harder to read or trace in a debugging
environment.
parts( ARRAY )
Used to specify an array of MIME::Entity's to be attached to the
transmitted SOAP message. Attachments that are returned in a
response can be accessed by "SOAP::SOM::parts()".
self
$ref = SOAP::Lite->self;
Returns an object reference to the default global object the
"SOAP::Lite" package maintains. This is the object that processes
many of the arguments when provided on the use line.
The following method isn't an accessor style of method but neither does
it fit with the group that immediately follows it:
call(arguments)
$client->call($method => @arguments);
As has been illustrated in previous chapters, the "SOAP::Lite"
client objects can manage remote calls with auto-dispatching using
some of Perl's more elaborate features. call is used when the
application wants a greater degree of control over the details of
the call itself. The method may be built up from a SOAP::Data
object, so as to allow full control over the namespace associated
with the tag, as well as other attributes like encoding. This is
also important for calling methods that contain characters not
allowable in Perl function names, such as A.B.C.
The next four methods used in the "SOAP::Lite" class are geared towards
handling the types of events than can occur during the message
lifecycle. Each of these sets up a callback for the event in question:
on_action(callback)
$client->on_action(sub { qq("$_[0]") });
Triggered when the transport object sets up the SOAPAction header
for an HTTP-based call. The default is to set the header to the
string, uri#method, in which URI is the value set by the uri method
described earlier, and method is the name of the method being
called. When called, the routine referenced (or the closure, if
specified as in the example) is given two arguments, uri and method,
in that order.
.NET web services usually expect "/" as separator for "uri" and
"method". To change SOAP::Lite's behaviour to use uri/method as
SOAPAction header, use the following code:
$client->on_action( sub { join '/', @_ } );
=item on_fault(callback)
$client->on_fault(sub { popup_dialog($_[1]) });
Triggered when a method call results in a fault response from the
server. When it is called, the argument list is first the client
object itself, followed by the object that encapsulates the fault.
In the example, the fault object is passed (without the client
object) to a hypothetical GUI function that presents an error dialog
with the text of fault extracted from the object (which is covered
shortly under the SOAP::SOM methods).
on_nonserialized(callback)
$client->on_nonserialized(sub { die "$_[0]?!?" });
Occasionally, the serializer may be given data it can't turn into
SOAP-savvy XML; for example, if a program bug results in a code
reference or something similar being passed in as a parameter to
method call. When that happens, this callback is activated, with one
argument. That argument is the data item that could not be
understood. It will be the only argument. If the routine returns,
the return value is pasted into the message as the serialization.
Generally, an error is in order, and this callback allows for
control over signaling that error.
on_debug(callback)
$client->on_debug(sub { print @_ });
Deprecated. Use the global +debug and +trace facilities described in
SOAP::Trace
Note that this method will not work as expected: Instead of
affecting the debugging behaviour of the object called on, it will
globally affect the debugging behaviour for all objects of that
class.
WRITING A SOAP CLIENT
This chapter guides you to writing a SOAP client by example.
The SOAP service to be accessed is a simple variation of the well-known
hello world program. It accepts two parameters, a name and a given name,
and returns "Hello $given_name $name".
We will use "Martin Kutter" as the name for the call, so all variants
will print the following message on success:
Hello Martin Kutter!
SOAP message styles
There are three common (and one less common) variants of SOAP messages.
These address the message style (positional parameters vs. specified
message documents) and encoding (as-is vs. typed).
The different message styles are:
* rpc/encoded
Typed, positional parameters. Widely used in scripting languages.
The type of the arguments is included in the message. Arrays and the
like may be encoded using SOAP encoding rules (or others).
* rpc/literal
As-is, positional parameters. The type of arguments is defined by
some pre-exchanged interface definition.
* document/encoded
Specified message with typed elements. Rarely used.
* document/literal
Specified message with as-is elements. The message specification and
element types are defined by some pre-exchanged interface
definition.
As of 2008, document/literal has become the predominant SOAP message
variant. rpc/literal and rpc/encoded are still in use, mainly with
scripting languages, while document/encoded is hardly used at all.
You will see clients for the rpc/encoded and document/literal SOAP
variants in this section.
Example implementations
RPC/ENCODED
Rpc/encoded is most popular with scripting languages like perl, php and
python without the use of a WSDL. Usual method descriptions look like
this:
Method: sayHello(string, string)
Parameters:
name: string
givenName: string
Such a description usually means that you can call a method named
"sayHello" with two positional parameters, "name" and "givenName", which
both are strings.
The message corresponding to this description looks somewhat like this:
KutterMartin
Any XML tag names may be used instead of the "s-gensym01" stuff -
parameters are positional, the tag names have no meaning.
A client producing such a call is implemented like this:
use SOAP::Lite;
my $soap = SOAP::Lite->new( proxy => 'http://localhost:81/soap-wsdl-test/helloworld.pl');
$soap->default_ns('urn:HelloWorld');
my $som = $soap->call('sayHello', 'Kutter', 'Martin');
die $som->faultstring if ($som->fault);
print $som->result, "\n";
You can of course use a one-liner, too...
Sometimes, rpc/encoded interfaces are described with WSDL definitions. A
WSDL accepting "named" parameters with rpc/encoded looks like this:

The message corresponding to this schema looks like this:
KutterMartin
A web service client using this schema looks like this:
use SOAP::Lite;
my $soap = SOAP::Lite->service("file:say_hello_rpcenc.wsdl");
eval { my $result = $soap->sayHello('Kutter', 'Martin'); };
if ($@) {
die $@;
}
print $som->result();
You may of course also use the following one-liner:
perl -MSOAP::Lite -e 'print SOAP::Lite->service("file:say_hello_rpcenc.wsdl")\
->sayHello('Kutter', 'Martin'), "\n";'
A web service client (without a service description) looks like this.
use SOAP::Lite;
my $soap = SOAP::Lite->new( proxy => 'http://localhost:81/soap-wsdl-test/helloworld.pl');
$soap->default_ns('urn:HelloWorld');
my $som = $soap->call('sayHello',
SOAP::Data->name('name')->value('Kutter'),
SOAP::Data->name('givenName')->value('Martin')
);
die $som->faultstring if ($som->fault);
print $som->result, "\n";
RPC/LITERAL
SOAP web services using the document/literal message encoding are
usually described by some Web Service Definition. Our web service has
the following WSDL description:

The XML message (inside the SOAP Envelope) look like this:
KutterMartinHello Martin Kutter!
You can call this web service with the following client code:
use SOAP::Lite;
my $soap = SOAP::Lite->new( proxy => 'http://localhost:80/helloworld.pl');
$soap->on_action( sub { "urn:HelloWorld#sayHello" });
$soap->autotype(0);
$soap->default_ns('urn:HelloWorld');
my $som = $soap->call("sayHello",
SOAP::Data->name('name')->value( 'Kutter' ),
SOAP::Data->name('givenName')->value('Martin'),
);
die $som->fault->{ faultstring } if ($som->fault);
print $som->result, "\n";
Differences between the implementations
You may have noticed that there's little difference between the
rpc/encoded, rpc/literal and the document/literal example's
implementation. In fact, from SOAP::Lite's point of view, the only
differences between rpc/literal and document/literal that parameters are
always named.
In our example, the rpc/encoded variant already used named parameters
(by using two messages), so there's no difference at all.
You may have noticed the somewhat strange idiom for passing a list of
named paraneters in the rpc/literal example:
my $som = $soap->call('sayHello', SOAP::Data->name('parameters')->value(
\SOAP::Data->value([
SOAP::Data->name('name')->value( 'Kutter' ),
SOAP::Data->name('givenName')->value('Martin'),
]))
);
While SOAP::Data provides full control over the XML generated, passing
hash-like structures require additional coding.
WRITING A SOAP SERVER
See SOAP::Server, or SOAP::Transport.
FEATURES
ATTACHMENTS
"SOAP::Lite" features support for the SOAP with Attachments
specification. Currently, SOAP::Lite only supports MIME based
attachments. DIME based attachments are yet to be fully functional.
EXAMPLES
Client sending an attachment
"SOAP::Lite" clients can specify attachments to be sent along with a
request by using the "SOAP::Lite::parts()" method, which takes as an
argument an ARRAY of "MIME::Entity"'s.
use SOAP::Lite;
use MIME::Entity;
my $ent = build MIME::Entity
Type => "image/gif",
Encoding => "base64",
Path => "somefile.gif",
Filename => "saveme.gif",
Disposition => "attachment";
my $som = SOAP::Lite
->uri($SOME_NAMESPACE)
->parts([ $ent ])
->proxy($SOME_HOST)
->some_method(SOAP::Data->name("foo" => "bar"));
Client retrieving an attachment
A client accessing attachments that were returned in a response by using
the "SOAP::SOM::parts()" accessor.
use SOAP::Lite;
use MIME::Entity;
my $soap = SOAP::Lite
->uri($NS)
->proxy($HOST);
my $som = $soap->foo();
foreach my $part (${$som->parts}) {
print $part->stringify;
}
Server receiving an attachment
Servers, like clients, use the SOAP::SOM module to access attachments
transmitted to it.
package Attachment;
use SOAP::Lite;
use MIME::Entity;
use strict;
use vars qw(@ISA);
@ISA = qw(SOAP::Server::Parameters);
sub someMethod {
my $self = shift;
my $envelope = pop;
foreach my $part (@{$envelope->parts}) {
print "AttachmentService: attachment found! (".ref($part).")\n";
}
# do something
}
Server responding with an attachment
Servers wishing to return an attachment to the calling client need only
return "MIME::Entity" objects along with SOAP::Data elements, or any
other data intended for the response.
package Attachment;
use SOAP::Lite;
use MIME::Entity;
use strict;
use vars qw(@ISA);
@ISA = qw(SOAP::Server::Parameters);
sub someMethod {
my $self = shift;
my $envelope = pop;
my $ent = build MIME::Entity
'Id' => "<1234>",
'Type' => "text/xml",
'Path' => "some.xml",
'Filename' => "some.xml",
'Disposition' => "attachment";
return SOAP::Data->name("foo" => "blah blah blah"),$ent;
}
DEFAULT SETTINGS
Though this feature looks similar to autodispatch they have (almost)
nothing in common. This capability allows you specify default settings
so that all objects created after that will be initialized with the
proper default settings.
If you wish to provide common "proxy()" or "uri()" settings for all
"SOAP::Lite" objects in your application you may do:
use SOAP::Lite
proxy => 'http://localhost/cgi-bin/soap.cgi',
uri => 'http://my.own.com/My/Examples';
my $soap1 = new SOAP::Lite; # will get the same proxy()/uri() as above
print $soap1->getStateName(1)->result;
my $soap2 = SOAP::Lite->new; # same thing as above
print $soap2->getStateName(2)->result;
# or you may override any settings you want
my $soap3 = SOAP::Lite->proxy('http://localhost/');
print $soap3->getStateName(1)->result;
Any "SOAP::Lite" properties can be propagated this way. Changes in
object copies will not affect global settings and you may still change
global settings with "SOAP::Lite->self" call which returns reference to
global object. Provided parameter will update this object and you can
even set it to "undef":
SOAP::Lite->self(undef);
The "use SOAP::Lite" syntax also lets you specify default event handlers
for your code. If you have different SOAP objects and want to share the
same "on_action()" (or "on_fault()" for that matter) handler. You can
specify "on_action()" during initialization for every object, but you
may also do:
use SOAP::Lite
on_action => sub {sprintf '%s#%s', @_};
and this handler will be the default handler for all your SOAP objects.
You can override it if you specify a handler for a particular object.
See t/*.t for example of on_fault() handler.
Be warned, that since "use ..." is executed at compile time all "use"
statements will be executed before script execution that can make
unexpected results. Consider code:
use SOAP::Lite proxy => 'http://localhost/';
print SOAP::Lite->getStateName(1)->result;
use SOAP::Lite proxy => 'http://localhost/cgi-bin/soap.cgi';
print SOAP::Lite->getStateName(1)->result;
Both SOAP calls will go to 'http://localhost/cgi-bin/soap.cgi'. If you
want to execute "use" at run-time, put it in "eval":
eval "use SOAP::Lite proxy => 'http://localhost/cgi-bin/soap.cgi'; 1" or die;
Or alternatively,
SOAP::Lite->self->proxy('http://localhost/cgi-bin/soap.cgi');
SETTING MAXIMUM MESSAGE SIZE
One feature of "SOAP::Lite" is the ability to control the maximum size
of a message a SOAP::Lite server will be allowed to process. To control
this feature simply define $SOAP::Constants::MAX_CONTENT_SIZE in your
code like so:
use SOAP::Transport::HTTP;
use MIME::Entity;
$SOAP::Constants::MAX_CONTENT_SIZE = 10000;
SOAP::Transport::HTTP::CGI
->dispatch_to('TemperatureService')
->handle;
IN/OUT, OUT PARAMETERS AND AUTOBINDING
"SOAP::Lite" gives you access to all parameters (both in/out and out)
and also does some additional work for you. Lets consider following
example:
name1name2name3
In that case:
$result = $r->result; # gives you 'name1'
$paramout1 = $r->paramsout; # gives you 'name2', because of scalar context
$paramout1 = ($r->paramsout)[0]; # gives you 'name2' also
$paramout2 = ($r->paramsout)[1]; # gives you 'name3'
or
@paramsout = $r->paramsout; # gives you ARRAY of out parameters
$paramout1 = $paramsout[0]; # gives you 'res2', same as ($r->paramsout)[0]
$paramout2 = $paramsout[1]; # gives you 'res3', same as ($r->paramsout)[1]
Generally, if server returns "return (1,2,3)" you will get 1 as the
result and 2 and 3 as out parameters.
If the server returns "return [1,2,3]" you will get an ARRAY reference
from "result()" and "undef" from "paramsout()".
Results can be arbitrary complex: they can be an array references, they
can be objects, they can be anything and still be returned by "result()"
. If only one parameter is returned, "paramsout()" will return "undef".
Furthermore, if you have in your output parameters a parameter with the
same signature (name+type) as in the input parameters this parameter
will be mapped into your input automatically. For example:
Server Code:
sub mymethod {
shift; # object/class reference
my $param1 = shift;
my $param2 = SOAP::Data->name('myparam' => shift() * 2);
return $param1, $param2;
}
Client Code:
$a = 10;
$b = SOAP::Data->name('myparam' => 12);
$result = $soap->mymethod($a, $b);
After that, "$result == 10 and $b->value == 24"! Magic? Sort of.
Autobinding gives it to you. That will work with objects also with one
difference: you do not need to worry about the name and the type of
object parameter. Consider the "PingPong" example
(examples/My/PingPong.pm and examples/pingpong.pl):
Server Code:
package My::PingPong;
sub new {
my $self = shift;
my $class = ref($self) || $self;
bless {_num=>shift} => $class;
}
sub next {
my $self = shift;
$self->{_num}++;
}
Client Code:
use SOAP::Lite +autodispatch =>
uri => 'urn:',
proxy => 'http://localhost/';
my $p = My::PingPong->new(10); # $p->{_num} is 10 now, real object returned
print $p->next, "\n"; # $p->{_num} is 11 now!, object autobinded
STATIC AND DYNAMIC SERVICE DEPLOYMENT
Let us scrutinize the deployment process. When designing your SOAP
server you can consider two kind of deployment: static and dynamic. For
both, static and dynamic, you should specify "MODULE", "MODULE::method",
"method" or "PATH/" when creating "use"ing the SOAP::Lite module. The
difference between static and dynamic deployment is that in case of
'dynamic', any module which is not present will be loaded on demand. See
the "SECURITY" section for detailed description.
When statically deploying a SOAP Server, you need to know all modules
handling SOAP requests before.
Dynamic deployment allows extending your SOAP Server's interface by just
installing another module into the dispatch_to path (see below).
STATIC DEPLOYMENT EXAMPLE
use SOAP::Transport::HTTP;
use My::Examples; # module is preloaded
SOAP::Transport::HTTP::CGI
# deployed module should be present here or client will get
# 'access denied'
-> dispatch_to('My::Examples')
-> handle;
For static deployment you should specify the MODULE name directly.
You should also use static binding when you have several different
classes in one file and want to make them available for SOAP calls.
DYNAMIC DEPLOYMENT EXAMPLE
use SOAP::Transport::HTTP;
# name is unknown, module will be loaded on demand
SOAP::Transport::HTTP::CGI
# deployed module should be present here or client will get 'access denied'
-> dispatch_to('/Your/Path/To/Deployed/Modules', 'My::Examples')
-> handle;
For dynamic deployment you can specify the name either directly (in that
case it will be "require"d without any restriction) or indirectly, with
a PATH. In that case, the ONLY path that will be available will be the
PATH given to the dispatch_to() method). For information how to handle
this situation see "SECURITY" section.
SUMMARY
dispatch_to(
# dynamic dispatch that allows access to ALL modules in specified directory
PATH/TO/MODULES
# 1. specifies directory
# -- AND --
# 2. gives access to ALL modules in this directory without limits
# static dispatch that allows access to ALL methods in particular MODULE
MODULE
# 1. gives access to particular module (all available methods)
# PREREQUISITES:
# module should be loaded manually (for example with 'use ...')
# -- OR --
# you can still specify it in PATH/TO/MODULES
# static dispatch that allows access to particular method ONLY
MODULE::method
# same as MODULE, but gives access to ONLY particular method,
# so there is not much sense to use both MODULE and MODULE::method
# for the same MODULE
);
In addition to this "SOAP::Lite" also supports an experimental syntax
that allows you to bind a specific URL or SOAPAction to a CLASS/MODULE
or object.
For example:
dispatch_with({
URI => MODULE, # 'http://www.soaplite.com/' => 'My::Class',
SOAPAction => MODULE, # 'http://www.soaplite.com/method' => 'Another::Class',
URI => object, # 'http://www.soaplite.com/obj' => My::Class->new,
})
"URI" is checked before "SOAPAction". You may use both the
"dispatch_to()" and "dispatch_with()" methods in the same server, but
note that "dispatch_with()" has a higher order of precedence.
"dispatch_to()" will be checked only after "URI" and "SOAPAction" has
been checked.
See also: EXAMPLE APACHE::REGISTRY USAGE, "SECURITY"
COMPRESSION
"SOAP::Lite" provides you option to enable transparent compression over
the wire. Compression can be enabled by specifying a threshold value (in
the form of kilobytes) for compression on both the client and server
sides:
*Note: Compression currently only works for HTTP based servers and
clients.*
Client Code
print SOAP::Lite
->uri('http://localhost/My/Parameters')
->proxy('http://localhost/', options => {compress_threshold => 10000})
->echo(1 x 10000)
->result;
Server Code
my $server = SOAP::Transport::HTTP::CGI
->dispatch_to('My::Parameters')
->options({compress_threshold => 10000})
->handle;
For more information see COMPRESSION in HTTP::Transport.
SECURITY
For security reasons, the existing path for Perl modules (@INC) will be
disabled once you have chosen dynamic deployment and specified your own
"PATH/". If you wish to access other modules in your included package
you have several options:
1 Switch to static linking:
use MODULE;
$server->dispatch_to('MODULE');
Which can also be useful when you want to import something specific
from the deployed modules:
use MODULE qw(import_list);
2 Change "use" to "require". The path is only unavailable during the
initialization phase. It is available once more during execution.
Therefore, if you utilize "require" somewhere in your package, it
will work.
3 Wrap "use" in an "eval" block:
eval 'use MODULE qw(import_list)'; die if $@;
4 Set your include path in your package and then specify "use". Don't
forget to put @INC in a "BEGIN{}" block or it won't work. For
example,
BEGIN { @INC = qw(my_directory); use MODULE }
INTEROPERABILITY
Microsoft .NET client with SOAP::Lite Server
In order to use a .NET client with a SOAP::Lite server, be sure you use
fully qualified names for your return values. For example:
return SOAP::Data->name('myname')
->type('string')
->uri($MY_NAMESPACE)
->value($output);
In addition see comment about default encoding in .NET Web Services
below.
SOAP::Lite client with a .NET server
If experiencing problems when using a SOAP::Lite client to call a .NET
Web service, it is recommended you check, or adhere to all of the
following recommendations:
Declare a proper soapAction in your call
For example, use "on_action( sub {
'http://www.myuri.com/WebService.aspx#someMethod'; } )".
Disable charset definition in Content-type header
Some users have said that Microsoft .NET prefers the value of the
Content-type header to be a mimetype exclusively, but SOAP::Lite
specifies a character set in addition to the mimetype. This results
in an error similar to:
Server found request content type to be 'text/xml; charset=utf-8',
but expected 'text/xml'
To turn off this behavior specify use the following code:
use SOAP::Lite;
$SOAP::Constants::DO_NOT_USE_CHARSET = 1;
# The rest of your code
Use fully qualified name for method parameters
For example, the following code is preferred:
SOAP::Data->name(Query => 'biztalk')
->uri('http://tempuri.org/')
As opposed to:
SOAP::Data->name('Query' => 'biztalk')
Place method in default namespace
For example, the following code is preferred:
my $method = SOAP::Data->name('add')
->attr({xmlns => 'http://tempuri.org/'});
my @rc = $soap->call($method => @parms)->result;
As opposed to:
my @rc = $soap->call(add => @parms)->result;
# -- OR --
my @rc = $soap->add(@parms)->result;
Disable use of explicit namespace prefixes
Some user's have reported that .NET will simply not parse messages
that use namespace prefixes on anything but SOAP elements
themselves. For example, the following XML would not be parsed:

SOAP::Lite allows users to disable the use of explicit namespaces
through the "use_prefix()" method. For example, the following code:
$som = SOAP::Lite->uri('urn:MyURI')
->proxy($HOST)
->use_prefix(0)
->myMethod();
Will result in the following XML, which is more palatable by .NET:

Modify your .NET server, if possible
Stefan Pharies :
SOAP::Lite uses the SOAP encoding (section 5 of the soap 1.1 spec),
and the default for .NET Web Services is to use a literal encoding.
So elements in the request are unqualified, but your service expects
them to be qualified. .Net Web Services has a way for you to change
the expected message format, which should allow you to get your
interop working. At the top of your class in the asmx, add this
attribute (for Beta 1):
[SoapService(Style=SoapServiceStyle.RPC)]
Another source said it might be this attribute (for Beta 2):
[SoapRpcService]
Full Web Service text may look like:
using System;
using System.Web.Services;
using System.Xml.Serialization;
[SoapService(Style=SoapServiceStyle.RPC)]
public class Test : WebService {
[WebMethod]
public int add(int a, int b) {
return a + b;
}
}
Another example from Kirill Gavrylyuk :
"You can insert [SoapRpcService()] attribute either on your class or
on operation level".
namespace DataType {
using System;
using System.Web.Services;
using System.Web.Services.Protocols;
using System.Web.Services.Description;
[SoapRpcService()]
public class StringTest: WebService {
[WebMethod]
[SoapRpcMethod()]
public string RetString(string x) {
return(x);
}
}
}
Example from Yann Christensen :
using System;
using System.Web.Services;
using System.Web.Services.Protocols;
namespace Currency {
[WebService(Namespace="http://www.yourdomain.com/example")]
[SoapRpcService]
public class Exchange {
[WebMethod]
public double getRate(String country, String country2) {
return 122.69;
}
}
}
Special thanks goes to the following people for providing the above
description and details on .NET interoperability issues:
Petr Janata ,
Stefan Pharies ,
Brian Jepson , and others
TROUBLESHOOTING
SOAP::Lite serializes "18373" as an integer, but I want it to be a
string!
SOAP::Lite guesses datatypes from the content provided, using a set
of common-sense rules. These rules are not 100% reliable, though
they fit for most data.
You may force the type by passing a SOAP::Data object with a type
specified:
my $proxy = SOAP::Lite->proxy('http://www.example.org/soapservice');
my $som = $proxy->myMethod(
SOAP::Data->name('foo')->value(12345)->type('string')
);
You may also change the precedence of the type-guessing rules. Note
that this means fiddling with SOAP::Lite's internals - this may not
work as expected in future versions.
The example above forces everything to be encoded as string (this is
because the string test is normally last and allways returns true):
my @list = qw(-1 45 foo bar 3838);
my $proxy = SOAP::Lite->uri($uri)->proxy($proxyUrl);
my $lookup = $proxy->serializer->typelookup;
$lookup->{string}->[0] = 0;
$proxy->serializer->typelookup($lookup);
$proxy->myMethod(\@list);
See SOAP::Serializer for more details.
"+autodispatch" doesn't work in Perl 5.8
There is a bug in Perl 5.8's "UNIVERSAL::AUTOLOAD" functionality
that prevents the "+autodispatch" functionality from working
properly. The workaround is to use "dispatch_from" instead. Where
you might normally do something like this:
use Some::Module;
use SOAP::Lite +autodispatch =>
uri => 'urn:Foo'
proxy => 'http://...';
You would do something like this:
use SOAP::Lite dispatch_from(Some::Module) =>
uri => 'urn:Foo'
proxy => 'http://...';
Problems using SOAP::Lite's COM Interface
Can't call method "server" on undefined value
You probably did not register Lite.dll using "regsvr32 Lite.dll"
Failed to load PerlCtrl Runtime
It is likely that you have install Perl in two different
locations and the location of ActiveState's Perl is not the
first instance of Perl specified in your PATH. To rectify,
rename the directory in which the non-ActiveState Perl is
installed, or be sure the path to ActiveState's Perl is
specified prior to any other instance of Perl in your PATH.
Dynamic libraries are not found
If you are using the Apache web server, and you are seeing something
like the following in your webserver log file:
Can't load '/usr/local/lib/perl5/site_perl/.../XML/Parser/Expat/Expat.so'
for module XML::Parser::Expat: dynamic linker: /usr/local/bin/perl:
libexpat.so.0 is NEEDED, but object does not exist at
/usr/local/lib/perl5/.../DynaLoader.pm line 200.
Then try placing the following into your httpd.conf file and see if
it fixes your problem.
PassEnv LD_LIBRARY_PATH
SOAP client reports "500 unexpected EOF before status line seen
See "Apache is crashing with segfaults"
Apache is crashing with segfaults
Using "SOAP::Lite" (or XML::Parser::Expat) in combination with
mod_perl causes random segmentation faults in httpd processes. To
fix, try configuring Apache with the following:
RULE_EXPAT=no
If you are using Apache 1.3.20 and later, try configuring Apache
with the following option:
./configure --disable-rule=EXPAT
See http://archive.covalent.net/modperl/2000/04/0185.xml for more
details and lot of thanks to Robert Barta for
explaining this weird behavior.
If this doesn't address the problem, you may wish to try
"-Uusemymalloc", or a similar option in order to instruct Perl to
use the system's own "malloc".
Thanks to Tim Bunce .
CGI scripts do not work under Microsoft Internet Information Server
(IIS)
CGI scripts may not work under IIS unless scripts use the ".pl"
extension, opposed to ".cgi".
Java SAX parser unable to parse message composed by SOAP::Lite
In some cases SOAP messages created by "SOAP::Lite" may not be
parsed properly by a SAX2/Java XML parser. This is due to a known
bug in "org.xml.sax.helpers.ParserAdapter". This bug manifests
itself when an attribute in an XML element occurs prior to the XML
namespace declaration on which it depends. However, according to the
XML specification, the order of these attributes is not significant.
http://www.megginson.com/SAX/index.html
Thanks to Steve Alpert (Steve_Alpert@idx.com) for pointing on it.
PERFORMANCE
Processing of XML encoded fragments
"SOAP::Lite" is based on XML::Parser which is basically wrapper
around James Clark's expat parser. Expat's behavior for parsing XML
encoded string can affect processing messages that have lot of
encoded entities, like XML fragments, encoded as strings. Providing
low-level details, parser will call char() callback for every
portion of processed stream, but individually for every processed
entity or newline. It can lead to lot of calls and additional memory
manager expenses even for small messages. By contrast, XML messages
which are encoded as base64Binary, don't have this problem and
difference in processing time can be significant. For XML encoded
string that has about 20 lines and 30 tags, number of call could be
about 100 instead of one for the same string encoded as
base64Binary.
Since it is parser's feature there is NO fix for this behavior (let
me know if you find one), especially because you need to parse
message you already got (and you cannot control content of this
message), however, if your are in charge for both ends of processing
you can switch encoding to base64 on sender's side. It will
definitely work with SOAP::Lite and it may work with other
toolkits/implementations also, but obviously I cannot guarantee
that.
If you want to encode specific string as base64, just do
"SOAP::Data->type(base64 => $string)" either on client or on server
side. If you want change behavior for specific instance of
SOAP::Lite, you may subclass "SOAP::Serializer", override
"as_string()" method that is responsible for string encoding (take a
look into "as_base64Binary()") and specify new serializer class for
your SOAP::Lite object with:
my $soap = new SOAP::Lite
serializer => My::Serializer->new,
..... other parameters
or on server side:
my $server = new SOAP::Transport::HTTP::Daemon # or any other server
serializer => My::Serializer->new,
..... other parameters
If you want to change this behavior for all instances of SOAP::Lite,
just substitute "as_string()" method with "as_base64Binary()"
somewhere in your code after "use SOAP::Lite" and before actual
processing/sending:
*SOAP::Serializer::as_string = \&SOAP::XMLSchema2001::Serializer::as_base64Binary;
Be warned that last two methods will affect all strings and convert
them into base64 encoded. It doesn't make any difference for
SOAP::Lite, but it may make a difference for other toolkits.
BUGS AND LIMITATIONS
* No support for multidimensional, partially transmitted and sparse
arrays (however arrays of arrays are supported, as well as any other
data structures, and you can add your own implementation with
SOAP::Data).
* Limited support for WSDL schema.
* XML::Parser::Lite relies on Unicode support in Perl and doesn't do
entity decoding.
* Limited support for mustUnderstand and Actor attributes.
PLATFORM SPECIFICS
MacOS
Information about XML::Parser for MacPerl could be found here:
http://bumppo.net/lists/macperl-modules/1999/07/msg00047.html
Compiled XML::Parser for MacOS could be found here:
http://www.perl.com/CPAN-local/authors/id/A/AS/ASANDSTRM/XML-Parser-
2.27-bin-1-MacOS.tgz
RELATED MODULES
Transport Modules
SOAP::Lite allows one to add support for additional transport protocols,
or server handlers, via separate modules implementing the
SOAP::Transport::* interface. The following modules are available from
CPAN:
* SOAP-Transport-HTTP-Nginx
SOAP::Transport::HTTP::Nginx provides a transport module for nginx
()
AVAILABILITY
You can download the latest version SOAP::Lite for Unix or SOAP::Lite
for Win32 from the following sources:
* CPAN: http://search.cpan.org/search?dist=SOAP-Lite
You are welcome to send e-mail to the maintainers of SOAP::Lite with
your comments, suggestions, bug reports and complaints.
ACKNOWLEDGEMENTS
Special thanks to Randy J. Ray, author of *Programming Web Services with
Perl*, who has contributed greatly to the documentation effort of
SOAP::Lite.
Special thanks to O'Reilly publishing which has graciously allowed
SOAP::Lite to republish and redistribute the SOAP::Lite reference manual
found in Appendix B of *Programming Web Services with Perl*.
And special gratitude to all the developers who have contributed
patches, ideas, time, energy, and help in a million different forms to
the development of this software.
HACKING
Latest development takes place on GitHub.com. Come on by and fork it.
git@github.com:redhotpenguin/soaplite.git
Also see the HACKING file.
Actively recruiting maintainers for this module. Come and get it on!
REPORTING BUGS
Please use rt.cpan.org or github to report bugs. Pull requests are
preferred.
COPYRIGHT
Copyright (C) 2000-2007 Paul Kulchenko. All rights reserved.
Copyright (C) 2007-2008 Martin Kutter
Copyright (C) 2013 Fred Moyer
LICENSE
This library is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
This text and all associated documentation for this library is made
available under the Creative Commons Attribution-NoDerivs 2.0 license.
http://creativecommons.org/licenses/by-nd/2.0/
AUTHORS
Paul Kulchenko (paulclinger@yahoo.com)
Randy J. Ray (rjray@blackperl.com)
Byrne Reese (byrne@majordojo.com)
Martin Kutter (martin.kutter@fen-net.de)
Fred Moyer (fred@redhotpenguin.com)